Background: Schistosomiasis, a major neglected tropical disease, is currently treated with only one drug, praziquantel (PZQ), effective only against adult worms. However, high reinfection rates and potential development of drug resistance following widespread use of PZQ emphasize the need for a deeper molecular understanding of the host-parasite crosstalk as a basis for urgently needed novel drugs. Here, we identify and characterize a soluble host-derived schistosomicidal phospholipase that influences the diacylglycerophospholipid metabolism and, thereby, the survival and development of Schistosoma mansoni. Methods: Large-scale proteomic screening identified host platelet-activating factor acetylhydrolase (PAFAH) as a potential schistosomicidal factor. Ultra-performance tandem mass spectrometry and electron microscopy imaging were employed to demonstrate the relevance and the lethal effects of recombinant expressed mouse PAFAH (MsPAFAH) on all juvenile stages and adult parasites from a mouse model of schistosomiasis. Quantitative lipidomic analysis revealed MsPAFAH-impaired glycerophospholipid distribution and metabolism and following free fatty acid supplementation. Results: MsPAFAH was upregulated in schistosome-infected mice and exhibited potent schistosomicidal activity against all parasite life stages ex vivo. In contrast, human PAFAH had no effect on parasite viability. MsPAFAH treatment led to profound impairments in worm fecundity, pairing stability, reproductive organ integrity, and stem cell development. This activity was associated with substantial sex-dependent changes in ether-phospholipid composition and distribution within the schistosome tegument. MsPAFAH specifically decreased the availability of phospholipid species containing unsaturated fatty acids, namely eicosenoic (20:1) and docosatetraenoic acid (22:4), while increasing levels of respective hydrolysis (lyso) products of diacyl- and ether-phospholipids (carrying 20:1 or stearic acid (18:0)), predominantly in males. Supplementation of metabolized fatty acids C20:1/eicosenoic acid and 22:4/adrenic acid rescued the viability of female worms, confirming the essential role of the metabolism of these diacylglycerophospholipids in schistosome survival. Conclusion: These findings unravel how a host phospholipase interferes with schistosome biology and development by regulating diacylglycerophospholipid availability and can thus open new avenues for schistosomiasis drug development and control.